JPWO2019146263A1 - Information processing system, information processing device, and information processing method - Google Patents

Abstract

The information processing system is an information processing system including a plurality of battery stations and an information processing device, and each battery station has a charging means capable of charging a replaceable battery and a replacement arranged in the battery station. The information processing apparatus includes a first communication means for transmitting charging information related to the charge amount of the mold battery, and the information processing apparatus receives the charging information from the first communication means. A specific means for specifying the charge amount for each battery station based on the charge information, and a movement planning means for creating a movement plan for a replaceable battery between the battery stations based on the charge amount for each specified battery station. And.

Description

The present invention relates to an information processing system, an information processing device, and an information processing method.

Patent Document 1 proposes an automatic storage system for storing an electric motorcycle operated by a removable battery and a battery of such a system.

Japanese Unexamined Patent Publication No. 2014-21107

Here, the number of users of the battery station is uneven, and the charge amount of the replaceable battery arranged in the specific battery station decreases, so that the user who wants to use the battery station may not be able to use the electric vehicle. In addition, such a battery station can be expected to be used as a standby power source in an emergency. However, if the amount of charge at the battery station is low, it cannot be expected to be used as a backup power source.

An object of the present invention is to make it possible to adjust the charge amount of a battery station in which a replaceable battery is arranged.

According to the present invention, the information processing system is an information processing system including a plurality of battery stations and an information processing device, and each battery station includes a charging means capable of charging a replaceable battery and the battery station. The information processing apparatus includes a first communication means for transmitting charging information related to the charge amount of the replaceable battery arranged in the first communication means, and the information processing apparatus receives the charging information from the first communication means. A plan for moving a replaceable battery between the battery stations based on the communication means, the specific means for specifying the charge amount for each battery station based on the received charge information, and the charge amount for each specified battery station. It is characterized by having a movement planning means for creating a battery.

Further, according to the present invention, the information processing device is an information processing device capable of communicating with a plurality of battery stations, and each battery station is arranged in a charging means capable of charging a replaceable battery and the battery station. The information processing apparatus includes a first communication means for transmitting charging information related to the charge amount of the replaceable battery, and the information processing apparatus receives the charging information from the first communication means. And a specific means for specifying the charge amount for each battery station based on the received charge information, and a transfer plan for the replaceable battery between the battery stations based on the charge amount for each specified battery station. It is characterized in that it is provided with a movement planning means.

Further, according to the present invention, the information processing method is a charging means capable of charging a replaceable battery in a plurality of battery stations, and charging related to the charge amount of the replaceable battery arranged in each battery station. A communication step executed by an information processing apparatus capable of communicating with the plurality of battery stations including a first communication means for transmitting information and receiving the charging information from the first communication means, and the received charging. A specific process of specifying the charge amount for each battery station based on information, a movement planning process for creating a transfer plan for a replaceable battery between the battery stations based on the charge amount for each specified battery station, and a movement planning process. It is characterized by including.

According to the present invention, by creating a movement plan based on the charge amount for each battery station, the charge amount can be adjusted between the battery stations.

The system diagram of the information processing system which concerns on embodiment. The block diagram of the information processing system which concerns on 1st Embodiment. The figure which shows an example of the information about the battery station stored in the storage of an information processing system. The processing sequence diagram of the information processing system which concerns on 1st Embodiment. The figure which shows the total charge amount of the battery station which concerns on 1st Embodiment, and the movement plan of a replaceable battery. The figure which shows the total charge amount of the battery station which concerns on 1st Embodiment, and the movement plan of a replaceable battery. The figure which shows the total charge amount of the battery station which concerns on 2nd Embodiment, and the movement plan of a replaceable battery. FIG. 5 is a flowchart of a process executed by the information processing system according to the third embodiment to create a movement plan based on a comparison between the total charge amount and the required amount of the battery station. The figure which shows an example of the information about a user stored in the storage of an information processing system. An example of a screen displaying a movement plan delivered by the information processing system according to the fourth embodiment. An example of a screen displaying a movement plan delivered by the information processing system according to the fourth embodiment. The figure which shows the battery station and the exchangeable battery which concerns on 5th Embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

<First Embodiment>
The present embodiment provides a system that assists a user of a replaceable battery to receive a battery at a battery station and bring it to the or other battery station to charge or replace the replaceable battery. Among them, this system provides a mechanism for adjusting the total charge amount (total charge amount) of the replaceable battery between the battery stations.

The information processing system according to the present embodiment will be described with reference to FIG. The information processing system 100 includes an information processing device (center server) 101, battery stations 1021, 1022, and 1023 (collectively referred to as battery stations 102). The information processing device 101 and each battery station 102 are communicably connected by a communication network 103.

The information processing device 101 is a server that communicates with a plurality of battery stations 102 and manages information on the battery stations 102 and user information. In particular, it manages information about the replaceable battery located at the battery station 102.

The battery station 102 is a facility capable of storing a plurality of replaceable batteries, and is a facility for charging the replaceable batteries and renting them out to users. The battery station 102 may be electrically connected to neighboring equipment and capable of transmitting and receiving electric power. Neighborhood equipment includes houses, stores such as gas stations and convenience stores, train stations, offices, vending machines, parking lots, bicycle parking lots, and traffic lights.

In the example of FIG. 1, the battery station 1021 is electrically connected to the house, the battery station 1022 is electrically connected to the vending machine, and the battery station 1023. With such a configuration, while being able to receive power from nearby equipment, it can also be used as a backup power source for transmitting power to nearby equipment in an emergency.

Further, the battery station 102 is connected to a charging facility (specifically, a charging unit 224 described later) as a storage place for the replaceable battery, and a space (specifically, a space in which the replaceable battery is arranged as inventory that is not being charged). There may be a storage). Further, the battery station 102 may be operated by an administrator or may be an unmanned battery station 102.

In addition, the battery station 102 performs a process of transmitting information regarding the total charge amount of the replaceable batteries arranged in the battery station 102 to the information processing device 101. When the battery station 102 has an administrator, this process may be executed with an instruction from the administrator, may be executed periodically, or may be executed in response to a request from the information processing device 101. It may be executed accordingly. Information on the total charge of the replaceable battery will be described later with reference to FIG.

The number of replaceable batteries that can be arranged in the battery station 102 may be one or more, and may differ for each battery station 102. For example, the number of replaceable batteries that can be placed in a place where the installation space is limited, such as the configuration attached to a vending machine, can be placed in a place where a certain amount of installation space can be secured, such as a gas station. It may be less than the number of replaceable batteries.

In the present embodiment, all the replaceable batteries are of the same type and have the same storage capacity, but may be of different types or have different storage capacities.

The communication network 103 communicatively connects the information processing device 101 and the battery station 102, and includes a wired network, a cellular network, and a wireless local network.

Next, a block diagram of the information processing system according to this embodiment is shown in FIG.

The information processing device 101 includes a control unit 211, a storage 212, and a communication unit 213. The control unit 211 is a processor such as a CPU, and executes a process stored in the storage 212. In this process, for example, a process of managing information regarding the total charge amount of the battery station 102 and a process of creating a movement plan of the replaceable battery 241 between the battery stations 102, which will be described later, are executed.

The storage 212 is a storage device such as a ROM, RAM, or HDD. In addition to the program executed by the control unit 211, various data are stored in the storage 212. In one example, the function of the control unit 211 can be realized by the CPU (not shown) expanding the program stored in the storage 212 into the RAM (not shown) and executing the program.

Here, with reference to FIG. 3, an example of information regarding the battery station stored in the storage 212 is shown.

The station ID 301 stores the identifier of the battery station 102, and the station position 302 stores information about the position of the battery station 102. Further, the station total charge amount 303 stores information regarding the total charge amount of the battery station 102. The battery identifiers 304, 306, and 308 store the identifier of the replaceable battery 241 and the battery charges 305, 307, and 309 store information about the charge amount of the replaceable battery 241. The station ID 301 and the station position 302 are also collectively referred to as station information. The total charge amount 303, the battery identifiers 304, 306 and 308, and the battery charge amounts 305, 307, and 309 are also referred to as charge information. In one example, the charging information may store only the information 304 to 309 regarding the individual replaceable batteries 241. Alternatively, the information 304 to 309 regarding the replaceable battery 241 may be omitted, and only the calculation result indicating the total charge amount of the battery station 102 may be stored. Also, the station position 302 may correspond to at least one of its address or latitude and longitude.

In the present specification, the charge amount of the replaceable battery 241 corresponds to the charged electric energy amount (for example, kilowatt hour) of the replaceable battery 241 or the ratio (for example, percentage) of the charged electric energy amount to the storage capacity. Further, in the present embodiment, the total charge amount is the total amount of charged electric power of the replaceable battery 241 arranged in the battery station 102 (for example, kilowatt hour). However, in another example, the total charge may be the ratio (eg, percentage) of the charged power to the total storage capacity of the replaceable battery 241 distributable to the battery station 102.

Returning to the description of FIG. The communication unit 213 is a wired or wireless network interface for the information processing device 101 to connect to the communication network 103.

Each of the battery stations 102 includes a control unit 221, a storage 222, a communication unit 223, and a charging unit 224.

The control unit 221 is a processor such as a CPU, and controls each component of the battery station in order to execute the processing stored in the storage 222. This process includes, for example, a process of acquiring the charge amount of the replaceable battery 241 connected to the battery station 102, and a process of transmitting information regarding the total charge amount of the battery station 102 to the information exchange device 101.

In addition to the program executed by the control unit 221, various data are stored in the storage 222. In one example, storage 222 may store at least all or part of station information or charging information.

The communication unit 223 is a communication interface used by the battery station 102 to transmit information that can specify the total charge amount of the battery station 102 to the information processing device 101 via the communication network 103.

The charging unit 224 can be electrically connected to charge the replaceable battery 241, and the charging process is controlled by the control unit 221. In the present embodiment, all of the replaceable batteries 241 arranged at the battery station 102 are electrically connected to the battery station 102.

The replaceable battery 241 arranged in the battery station 102 does not necessarily have to be electrically connected, and may only be stored in the battery station 102 as inventory, for example. In that case, the charge amount of the replaceable battery 241 may be a value according to the time elapsed since the battery is fully charged (time after charging), or a value of the charge sensor.

In one example, the battery station 102 can obtain information about the charge amount of the replaceable battery 241 by measuring electrical characteristics such as voltage, resistance, and current of the electrically connected replaceable battery 241. .. In another example, the replaceable battery 241 and the battery station 102 are communicable, the replaceable battery 241 itself acquires the charge amount of the replaceable battery 241 and the battery station 102 is informed about the charge amount of the replaceable battery 241. May be sent.

Next, a processing example executed by the control unit 211 of the information processing device 101 will be described. Here, the process related to the creation of the movement plan will be described. The movement plan is information regarding the movement of the replaceable battery 241 between the battery stations 102, which the information processing apparatus 101 requests the user to adjust the total charge amount of the battery station 102. The reason for adjusting the total charge amount is as follows.

When the number of users of the battery station 102 is biased and the total charge amount of some of the battery stations 102 decreases, the frequency of use of the users for the battery station 102 decreases. Further, the replaceable battery 241 arranged in the battery station 102 is expected to be used as a standby power source in an emergency such as a large-scale power outage occurring in the vicinity. However, if the charge amount (storage amount) at the battery station 102 is low, it cannot be expected that the replaceable battery 241 of that station will be used as a standby power source.

Therefore, in the present embodiment, a movement plan for adjusting the amount of charge between the battery stations 102 is created. When this movement plan is provided to the user and the action corresponding to the movement plan is promoted, the circulation of the replaceable battery 241 is promoted, and the total charge amount of the battery station 102 in which the total charge amount is lowered can be improved. it can. Thereby, it is possible to secure the total charge amount for providing the replaceable battery 241 to the user who desires to use the battery station 102 or as a standby power source in an emergency.

The replacement battery 241 is moved between the battery stations 102 by the user carrying the replacement battery or by mounting the replacement battery on an electric vehicle and using the power of the replacement battery. It can be realized by. Further, in one example, the movement of the replaceable battery 241 may be the movement of the electric power possessed by the replaceable battery 241, that is, the movement of only the electric power using an electric wire or the like. Such movement of only electric power can be realized by adjusting the charge / discharge amount of the replaceable battery 241 between the battery stations 102 connected to the electric power system.

Next, with reference to FIG. 4, a process performed by the information processing device 101 and the battery station 102 in order to create a movement plan for the replaceable battery 241 will be described. In one example, the processing of the information processing apparatus 101 can be realized by the control unit 211 executing the program stored in the storage 212.

First, in S401, the battery station 102 acquires information on the charge amount of all the replaceable batteries 241 arranged in the battery station 102. In the present embodiment, the battery station 102 will be described as starting the processing of the S401 periodically, but as described above, the battery station 102 may be executed at the instruction of the administrator or the request of the information processing device 101. ..

Next, in S402, the battery station 102 transmits information (station information) regarding the position of the battery station 102 and the like and information (charging information) regarding the total charge amount to the information processing device 101 via the communication unit 223. The station information and the charging information may be transmitted at the same time or in order. Subsequently, in S403, the information processing device 101 stores the received station information and charging information in the storage 212.

The station information transmitted by the battery station 102 in S402 does not necessarily include the position information of the battery station 102. In such a case, in one example, the information processing apparatus 101 that has received the station information including the identifier of the battery station 102 may read the position information of the battery station 102 from the storage 212 using the received identifier. Further, as described above, the charging information transmitted by the battery station 102 in S402 is at least one of the individual charge amounts of the replaceable batteries 241 arranged in the battery station 102 or the total charge amount generated based on the individual charge amounts. Information.

Next, in S404, the information processing device 101 specifies the total charge amount for each battery station 102. When the information processing device 101 receives from the battery station 102 the total charge amount of the replaceable battery 241 arranged therein, the information processing device 101 specifies the total value as the total charge amount of the battery station 102. .. Alternatively, when the information processing device 101 receives an individual charge amount of the replaceable battery 241 arranged in the battery station 102, the individual charge amount is added (calculated) to obtain the total charge amount of the battery station 102. You may calculate.

Next, in S405, the information processing device 101 creates a movement plan for the replaceable battery 241 based on the station information and the charging information of the plurality of battery stations 102. In one example, the information processing apparatus 101 is a replaceable battery from a battery station 102 having a large total charge amount to a battery station 102 having a small total charge amount, in which the difference between the total charge amounts is equal to or more than a predetermined value and is located within a predetermined distance. Create a 241 travel plan.

Here, an example of a movement plan created by the information processing apparatus 101 according to the first embodiment will be described with reference to FIGS. 5A and 5B.

5A and 5B show two examples of travel plans created according to the total charge of battery stations 501, 502, 503. In this example, when the total charge amount of a certain battery station is 100 kWh or more higher than the total charge amount of another battery station, the information processing device 101 determines that the battery station has a large total charge amount. sell.

In FIG. 5A, the battery station 501 has a total charge of 140 kWh, the battery station 502 has a total charge of 40 kWh, and the battery station 503 has a total charge of 100 kWh. The battery station 501 has a total charge amount of 100 kWh or more as compared with the battery station 502, and the battery station 503 has a total charge amount difference of less than 100 kWh as compared with other battery stations. Therefore, the information processing device 101 can create a movement plan to move the replaceable battery 241 of the battery station 501 from the battery station 501 to the battery station 502.

In FIG. 5B, the battery station 501 has a total charge of 60 kWh, the battery station 502 has a total charge of 180 kWh, and the battery station 503 has a total charge of 70 kWh. The total charge of the battery station 502 is 100 kWh or more higher than the total charge of the battery stations 501 and 503, respectively. Therefore, the information processing apparatus 101 can create a movement plan to move the replaceable battery of the battery station 502 from the battery station 502 to the battery stations 501 and 503.

Returning to the description of FIG. Next, in S406, the information processing device 101 provides the user with a movement plan. In one example, the information processing device 101 uses an external e-mail service or functions as an e-mail server to deliver an e-mail containing information about the created movement plan to a registered user's user terminal and execute the movement plan. To ask. Further, in one example, the information on the created movement plan may be disclosed by uploading to an external Web service or functioning as a Web server, and the cooperation of an unspecified user may be requested. The details of the process of providing the movement plan to the user will be described later in the fourth embodiment.

As described above, according to the present embodiment, the information processing device 101 creates a movement plan based on the total charge amount of the battery station 102. As a result, the electric power (total charge amount) possessed by the battery station can be adjusted.

Further, according to the present embodiment, it is possible to create a movement plan for moving the replaceable battery 241 from the battery station 102 having a large total charge amount to the battery station 102 having a small total charge amount. As a result, the total charge amount of the battery station 102 having a small total charge amount can be leveled, and the improvement can be made faster than waiting for the replacement battery 241 arranged therein to be charged.

Further, according to the present embodiment, the charging information transmitted from the battery station 102 to the information processing device 101 includes the total charge amount of the replaceable battery 241 arranged in the battery station 102. As a result, the amount of data received by the information processing device 101 from the battery station 102 can be reduced, and the processing load of the information processing device 101 can be suppressed.

As described above, in the present embodiment, since the information regarding the movement plan created by the information processing apparatus is created, it can contribute to the adjustment of the total charge amount of the battery station 102 by distributing the information to the user terminal of the registered user. In the present embodiment, since the movement plan is directly provided to a specific user by e-mail or the like, the movement of the replaceable battery 241 can be promoted. An incentive (reward) may be given to the user who has executed the movement of the exchangeable battery 241 related to the movement plan. Specific examples of the incentive will be described in the fourth embodiment.

<Second embodiment>
In the first embodiment, a movement plan for encouraging the movement of the replaceable battery is created without specifying the replaceable battery 241. However, in one example, the replaceable battery 241 is specified and the information about the replaceable battery 421 is included. You may create a travel plan.

In the present embodiment, an example of the information processing system 100 in which each replaceable battery 241 arranged in the battery station 102 has an identifier and a movement plan is created by using the identifier of the replaceable battery 241 will be described. In the present embodiment, an example of the processing of FIG. 4 performed by the control unit 211 of the information processing apparatus 101 will be described with reference to FIG. The description of the configuration or processing similar to that of the first embodiment will be omitted.

In one example, the battery station 102 is configured to be communicable with the replaceable battery 241 located therein, and in S401, the battery station 102 acquires the identifier and charge of the replaceable battery 241 by communication. Subsequently, in S402, the battery station 102 transmits the station information of the battery station and the charging information including the identifier of the replaceable battery 241 and the charge amount to the information processing device 101.

In S403, the information processing device 101 stores at least a part of the station information and the charging information in the storage 212, and in S404, the information processing device 101 adds (calculates) the charge amount of each replaceable battery 241 to the battery station. Acquire the total charge amount of 102.

Next, in S405, the information processing device 101 creates a movement plan for the replaceable battery 241 based on the station information and the charging information of the battery station 102.

Here, the process of S405 of FIG. 4 in which the information processing apparatus 101 creates a movement plan using the identifier of the replaceable battery 241 will be described with reference to the specific example of FIG.

In the present embodiment, as shown in FIG. 6, it is assumed that there are battery stations 601, 602, and 603 in which three replaceable batteries can be arranged within a certain range.

The battery station 601 is arranged with a battery 1 having a charge amount of 90 kWh, a battery 2 having a charge amount of 80 kWh, and a battery 3 having a charge amount of 70 kWh, and the total charge amount is 240 kWh. The battery station 602 is arranged with a battery 4 having a charge amount of 50 kWh, a battery 5 having a charge amount of 40 kWh, and a battery 6 having a charge amount of 30 kWh, and the total charge amount is 120 kWh. The battery station 603 is arranged with a battery 7 having a charge amount of 90 kWh, a battery 8 having a charge amount of 80 kWh, and a battery 9 having a charge amount of 10 kWh, and the total charge amount is 180 kWh.

In the present embodiment, a movement plan is specified by designating at least one identifier of a replaceable battery to be moved from a battery station having a large total charge and a replaceable battery to be replaced from a battery station having a small total charge. Can be created. For example, the information processing apparatus 101 can create a movement plan to move the battery 1 having the highest charge among the replaceable batteries 241 arranged in the battery station 601 having the highest total charge to the battery station 602. Alternatively, a movement plan is created so that the battery 1 of the battery station 601 having a large total charge is replaced with the battery 6 having the least charge among the replaceable batteries arranged in the battery station 602 having a small total charge, for example. You may.

The interchangeable battery 241 to be moved can be determined by the information processing apparatus 101 on an arbitrary basis. In one example, the battery 2 located at the battery station 601 with the highest total charge and the second highest charge can be replaced with the battery 6 located at the battery station 602 with the lowest total charge and with the lowest charge. Good. As a result, it is possible to improve the total charge amount of the battery station having a small total charge amount while securing a battery having a large charge amount for the user who desires to use the replaceable battery in the battery station 601. Alternatively, in another example, the difference between the total charge amount of the battery station 601 having a large total charge amount and the total charge amount of the battery station 602 having a small total charge amount is moved so as to be minimized after the replacement of the replaceable battery 241. You may create a plan.

In FIG. 6, assuming that the battery 1 having a charge amount of 90 kWh in the battery station 601 is moved, the information processing device 101 estimates that the total charge amount of the battery station 601 after the movement is 150 kWh. Next, the information processing device 101 replaces the battery 1 having a charge amount of 90 kWh with the battery 4 having a charge amount of 50 kWh so that the difference in the total charge amount between the battery stations 601 and 602 after movement is minimized. You can create a travel plan. In this case, the total charge amount of the battery station 602 after moving the replaceable battery is 160 kWh.

As described above, in the present embodiment, information regarding the charge amount of each replaceable battery 241 arranged in the battery station 102 is transmitted to the information processing device 101, and the information processing device 101 of the battery station 102 based on the information. Identify the total charge. This makes it possible to estimate how much the total charge amount changes when the information processing device 101 moves the replaceable battery 241.

Further, in the present embodiment, the identifier of each replaceable battery 241 is transmitted from the battery station 102 to the information processing device 101, and the information processing device 101 creates a movement plan including the identifier. As a result, the information processing device 101 can request the movement of the replaceable battery 241 by designating an identifier.

Further, in the present embodiment, when the difference between the total charge amounts of the two battery stations 102 exceeds the threshold value, the replaceable battery is moved from the battery station 102 having a large total charge amount to the battery station 102 having a small total charge amount. Create a move plan. As a result, the information processing apparatus 101 can relatively compare and level the total charge amount of the battery station 102.

<Third embodiment>
In the first and second embodiments, the information processing apparatus 101 can create a movement plan by relatively comparing the total charge amount of the battery station 102. In one example, the total charge amount to be satisfied is set for each battery station 102, and the information processing device 101 can create a movement plan based on the total charge amount to be satisfied for each battery station 102.

In the present embodiment, the information processing system 100 for creating a movement plan by comparing the charge amount (required amount) to be provided in the battery station 102 with the total charge amount will be described. In the present embodiment, an example of the processing of S405 of FIG. 4 performed by the control unit 211 of the information processing apparatus 101 will be described with reference to FIG. 7, and the same configuration or processing as that of the first or second embodiment will be described. Is omitted.

In the present embodiment, each replaceable battery 241 has an identifier, and the battery station 102 transmits the identifier and the charge amount of each replaceable battery 241 arranged therein to the information processing device 101 in S402. And.

In S701, the control unit 211 starts the process of S405. Subsequently, in S702, the control unit 211 determines the required amount of the battery station 102 and its threshold value.

In one example, the required amount is determined by the information processing apparatus 101 from the perspective of a backup power source, based on the storage capacity of the replaceable battery 241 that can or is located in the battery station 102, or the location of the battery station 102. Can be set. The viewpoint as a standby power source indicates the amount of power that the battery station 102 in which the replaceable battery 241 is arranged should have in an emergency. For example, when the battery station 102 is installed in a place such as a house that does not require a large amount of electric power in an emergency, as compared with a case where the battery station 102 is installed in a place such as a vending machine that does not require a large amount of electric power in an emergency The amount of power that should be possessed by the device may be large. Therefore, the installation location of the battery station 102 is classified. For example, if the installation location is a location that requires a relatively large amount of electric power in an emergency, the required amount is set to 70%, and if the installation location is a location that does not require a large amount of electric power in an emergency. May have a required amount of 50%.

In another example, the required amount of battery station 102 may be preset by the owner or privileged user of the battery station 102. For example, the owner of the building in which the battery station 102 is installed may be configured to be able to set, for example, the information processing device 101 or the battery station 102 the amount of charge that he / she wants to secure in case of an emergency. ..

In another example, the information processing apparatus 101 includes a demand forecasting unit, and the demand forecasting unit can predict and set the required amount of the battery station 102 based on the usage history of the battery station 102.

In one example, the information processing apparatus 101 may store in the storage 212 a history of the total charge of the battery station 102 or a history of the charge of the replaceable battery 241 over a certain period of time, for example, the past month. In addition, history information about the battery station 102 in which the replaceable battery 241 is arranged in the past, or history information about the user who used the battery station 102 or the replaceable battery 241 may be stored.

The demand forecasting unit may perform demand forecasting periodically, for example, once a day, or when information about the battery station 102 is received from the battery station 102.

For example, in resort areas, the demand for replaceable batteries charged on holidays may increase from weekdays, and in areas where there are many commuting / school users, the demand for replaceable batteries 241 charged in the morning and evening may increase from daytime. .. For example, the demand forecasting unit of the information processing apparatus 101 records the past fluctuations in the total charge amount of the battery station 102, and performs statistical processing such as dispersion and average of the total charge amount. It may be used to forecast demand and forecast the required amount. Alternatively, if the identifier of the user who uses the battery station 102 can be obtained and a specific user who uses the battery station 102 can be detected at a fixed cycle, the demand forecasting unit takes this cycle into consideration when forecasting the demand. It can be performed.

The required amount threshold includes threshold 1 and threshold 2. The threshold value 1 is a threshold value less than 0 for determining that the charge amount of the battery station 102 is insufficient and it is necessary to move the replaceable battery 241 having a large charge amount from another battery station 102. The threshold value 2 is a threshold value larger than 0 for determining that the battery station 102 has a sufficient charge amount and has a replaceable battery 241 that can be moved to another battery station 102. The threshold values 1 and 2 may be predetermined values or values set based on an error between the demand forecast and the actual usage history.

Subsequently, in S703, the total charge amount of the battery station 102 and the required amount are compared, and the difference is calculated. In this embodiment, the difference is the charge amount-required amount. In S703, when the charge amount is smaller than the required amount and the difference (charge amount-required amount) is equal to or less than the threshold value 1 which is a negative threshold value, the control unit 211 indicates that the total charge amount of the battery station 102 is insufficient. Judge and proceed to S705. In one example, the control unit 211 adds the identifier and the difference (deficiency amount) of the battery station 102 to the shortage list as one entry in S705, and proceeds to S707.

In S703, that is, when the charge amount is larger than the required amount and the difference (charge amount-required amount) is equal to or greater than the threshold value 2 which is a positive threshold value, the control unit 211 has a surplus in the total charge amount of the battery station 102. Judging that it is, proceed to S706. Similarly, in S706, the identifier of the battery station 102 and the difference (surplus amount) are added to the surplus list as one entry, and the process proceeds to S707.

When the difference is larger than the threshold value 1 and less than the threshold value 2 in S703, the control unit 211 determines that the total charge amount of the battery station 102 is neither surplus nor insufficient, proceeds to S704, and creates a movement plan for the battery station 102. Without doing so, S405 ends. In S704, if the battery station 102 has been previously added to the shortage list or the surplus list, the process of S405 may be terminated after the entry of the battery station 102 is deleted from the list.

Subsequently, in S707, the control unit 211 compares the surplus list with the shortage list. For example, when one or more of the battery stations in the surplus list and one or more of the battery stations in the shortage list are within a certain distance and the surplus amount is equal to or more than the absolute value of the shortage amount, the control unit 211 sets the surplus list. Judges that the entries match with the missing list. If it is determined that the entries match in the surplus list and the shortage list, the process proceeds to S708. In S708, control unit 211 creates a replacement battery transfer plan between the battery stations 102 of the entries matched in S707 and proceeds to S709. Here, after adding two or more entries to the movement plan in S708, those entries may be deleted. Subsequently, the process proceeds to S709 and ends S405. When one of the battery stations in the surplus list and one of the battery stations in the shortage list are farther than a certain distance, or the surplus amount is less than the absolute value of the shortage amount, the control unit 211 matches the surplus list and the shortage list. It is determined not to proceed, and the process proceeds to S709. When the comparison for all the entries of the surplus list, the surplus list, and the shortage list is completed, the process proceeds to S709 and the processing of S405 ends.

In the present embodiment, the comparison between the surplus list and the shortage list of S707 is performed on a one-to-one basis, but a one-to-many or many-to-many comparison may be performed. For example, one or two travel plans may be created using two of the surplus list battery stations 102 and one of the shortage list battery stations 102. In one example, for one-to-many or many-to-many comparison, an optimization problem using the position information and difference of the battery station 102 as parameters may be solved by mathematical processing such as a neural network, and this may be the processing of S707. ..

As described above, in the present embodiment, the information processing device 101 sets the required amount of the battery station 102, and creates a movement plan based on the difference between the charged amount and the required amount. Thereby, the information processing system 100 can adjust the total charge amount of the battery station 102 so that the battery station 102 secures the desired total charge amount.

Further, in the present embodiment, the information processing device 101 includes a demand forecasting unit that predicts the user usage of each battery station 102, and creates a movement plan based on the demand forecasting. As a result, the total charge amount required for each battery station 102 is predicted, and the total charge amount is increased in advance, so that the situation where the total charge amount is insufficient can be avoided.

<Fourth Embodiment>
In the present embodiment, an information processing system that distributes information about the movement plan to the user terminal of the registered user will be described. The user of the information processing system according to the present embodiment has an identifier, and the information processing device 101 further includes a user management unit for storing the usage history of the user and a distribution unit for distributing information on the created movement plan. Be prepared.

In one example, the distribution unit of the information processing device 101 also functions as a Web server for the information processing device 101, and publishes the movement plan on a website or uploads the movement plan to a separate Web service. In another example, the distributor sends a short mail service (SMS), email, or social networking service message, etc., containing information about the travel plan created to a particular user terminal to execute the travel plan. You can ask. In another example, the battery station 102 may include a display unit and display information on the movement plan received from the information processing device 101 on the display unit. The information about the movement plan may be the movement plan itself, a link (URL) to a website for browsing the movement plan, or the like. In another example, the information processing device 101 is a server that provides a route guidance service, and responds to an inquiry about a route to a destination from a user, and receives a route to the destination and a battery station 102 or a movement plan around the route. At least one can be presented to the user.

In addition, the information processing device 101 may further include a user management unit. For example, the user of the information processing system has an identifier, and when using the battery station 102, the user identifier is transmitted to the information processing device 101 via the user terminal or the user interface (I / F) of the battery station 102. .. As a result, the information processing device 101 can store at least one usage history of the battery station 102 or the replaceable battery 241 for each user. Further, this makes it possible for the information processing device 101 to identify the user who executed the created movement plan and give an incentive to the user.

Here, an example of a user information database managed by the information processing apparatus 101 will be described with reference to FIG. The user information of FIG. 8 is stored in the storage 212 of the information processing device 101. The user information may be transmitted to the information processing apparatus 101 by the user or the administrator of the battery station 102 via the user terminal or the battery station 102, and the control unit 211 may register / update the user information. Alternatively, when the user uses the battery station 102, the battery station 102 cooperates with the user terminal or the replaceable battery 241 to acquire the user information and transmits the user information to the information processing device 101, and the control unit 211 transmits the user information. You may register / update.

The user information includes the user profile 801 and the actual information 802. The user profile 801 is information about the user such as the user's identifier, e-mail address, age, and gender. The performance information 802 stores information regarding the user's behavior. For example, the date and time when the user used the battery station 102 or the replaceable battery 241 and the contents thereof are included. Performance information may include information about billing and incentives. Further, as shown in FIG. 9, the performance information includes a plurality of performance information regarding the actions taken by the user in the past fixed period.

In one example, the user transmits the position information to the information processing device 101 via the user terminal and stores the position information in the user management unit. Further, the distribution unit of the information processing device 101 may distribute information about the movement plan only to users who are within a predetermined distance from the battery station 102 specified in the created movement plan based on the position information of the user terminal. Alternatively, the user terminal may determine whether to notify the user of the movement plan received from the information processing device 101 based on the position information.

Next, an example of the distribution screen of the movement plan will be described with reference to FIGS. 9 and 10.

FIG. 9 is an example of a screen for displaying a movement plan of a replaceable battery between battery stations located within a certain distance from the user.

The current location 800 indicates the current location of the user who has received the information about the movement plan. Battery stations 901 to 905 indicate battery stations that exist within a certain distance from the user. The battery stations 901 and 905 are battery stations 102 that the information processing apparatus 101 determines that the total charge amount is surplus. The battery station 902 is a battery station 102 determined by the information processing device 101 that the total charge amount is insufficient.

In FIG. 9, a moving plan 906 for moving the replaceable battery from the battery station 901 to the battery station 902 and a moving plan 807 for moving the replaceable battery 241 from the battery station 905 to the battery station 902 are displayed.

In the present embodiment, the movement plan 906 and the movement plan 907 are displayed in the same manner, but the plurality of movement plans are prioritized according to various criteria, and only one of them is displayed or a format such as a different size is displayed. It may be displayed as. For example, in FIG. 9, since the total charge amount of the battery station 901 is larger than the total charge amount of the battery station 905, the information processing device 101 has a larger surplus amount of the battery station 901, and the movement plan 906 has a higher priority. I can judge. Subsequently, the information processing apparatus 101 may be set so that the person who undertakes the movement plan 906 corresponding to the battery station 901 gets a higher reward, and motivates the user to select the movement plan 906 with a higher probability. .. In another example, the information processing apparatus 101 prioritizes and displays a plurality of travel plans based on arbitrary criteria such as the frequency of use of the battery station 102, the number of replaceable batteries 241 or the distance from the user. You may display only one movement plan. The reward given to the user is determined by the information processing device 101 based on, for example, the amount of electric power of the replaceable battery 241 moved by the user or the amount of electric power required by the battery station 102 whose total charge amount is insufficient. May be good.

The reward may be, for example, a discount or a free usage fee for the replaceable battery 241, or a discount such as a rental fee for an electric vehicle or a parking fee.

When the user selects, for example, the underwriting button of the movement plan 906, the user terminal transmits information about the user who has selected the underwriting button of the movement plan 906 to the information processing device 101. In one example, the information processing device 101 stores the information indicating that the user is executing the movement plan 906 in the user management unit of the movement plan 906, and does not request the movement plan 906 from other users. You may.

In the present embodiment, the information processing device 101 confirms the user who has moved the replaceable battery 241 and then gives a reward. In one example, in the case of a manned battery station, the information processing device 101 rewards the user by confirming the movement of the replaceable battery 241 and inputting information about the user who executed the movement into the information processing device 101. Can be given. In another example, the information processing apparatus 101 can reward the user by transmitting information about the user to the information processing apparatus 101 via the battery station 102. For example, the information processing apparatus 101 receives charging information from the battery stations 901 and 902, confirms that the user has actually moved the replaceable battery, and then rewards the user.

Next, FIG. 10 shows an example of a screen for displaying the movement plan of the replaceable battery 241 according to the search result of the route to the user's destination.

The current location 1000 is the current location of the user who has searched for the route to the destination 1004.

The battery stations 1001, 1002, and 1003 are battery stations that exist within a certain distance from the route from the current location 1000 to the destination 1004. The battery station 1001 is a battery station that the information processing apparatus 101 determines that the total charge amount is surplus. The battery station 1003 is a battery station determined by the information processing device 101 that the total charge amount is insufficient.

Here, when a movement plan is created between the battery stations existing within a certain distance from the route from the current location 1000 to the destination 1004, the information processing device 101 matches the search result of the planned travel route as in 1005. You may present a travel plan. Further, the information processing device 101 may present only the search result of the shortest planned travel route, which does not include the movement plan, such as 1006.

As described above, in the present embodiment, the battery station inputs the user identification information for identifying the user to the center station, and the information processing device manages the user's usage history based on the received user identification information. It has a management department. As a result, it is possible to determine billing and granting of incentives based on the user's usage history.

Further, in the present embodiment, the actual information of the user who has executed the movement plan is stored in the user management unit. As a result, an incentive (reward) can be given to the user to promote the movement of the replaceable battery.

<Fifth Embodiment>
In the first embodiment, the information processing device 101 creates a movement plan based on the total charge amount of the battery station, but in one example, it is based on the ratio of the amount of power actually held to the amount of power that the battery station can hold. You may create a travel plan.

In this embodiment, information processing for creating a movement plan based on the amount of power actually held (charging rate) with respect to the amount of power that can be held by the battery station, that is, the total storage capacity of the replaceable batteries 241 that can be arranged. An example of the device 101 will be described with reference to FIG. The description of the configuration or processing similar to that of the first embodiment will be omitted. In another example, the charge rate may be the ratio of the total amount of actual charge to the total storage capacity of the replaceable battery 241 actually arranged in the battery station.

In FIG. 11, two battery stations 1101 and 1102 are shown. The battery station 1101 is a battery station in which nine replaceable batteries can be arranged, and actually includes replaceable batteries 1 to 9. The battery station 1102 is a battery station in which three replaceable batteries can be arranged, and actually includes the replaceable batteries 10 to 12. Here, it is assumed that each replaceable battery has a capacity of 100 kWh.

The amount of power that can be held by the battery station 1101 is 9 × 100 kWh = 900 kWh, and the total amount of remaining charge of the actual replaceable battery is 50 + 40 + 60 + 30 + 70 + 45 + 40 + 40 + 30 = 405 kWh. Therefore, 405/900 = 0.45 (45%) is the charge rate of the battery station 1101. Similarly, the amount of power that can be held by the battery station 1102 is 300 kWh, and the total amount of remaining charge of the actual replaceable batteries 10 to 12 is 90 + 100 + 80 = 270 kWh. Therefore, 270/300 = 0.9 (90%) is the charge rate of the battery station 1102.

In the present embodiment, the battery stations 1101 and 1102 may transmit information on the charge amount of each replaceable battery or information on the charge rate of the battery station as charge information in S402. For example, the battery station transmits information about the total charge amount and the number of replaceable batteries to be arranged, and the information processing device 101 calculates the charge rate by dividing the received total charge amount by the number. May be good.

In the present embodiment, the information processing apparatus 101 creates a movement plan of the replaceable battery 241 from a certain battery station to a battery station having a charging rate of 30% or more. Therefore, a transfer plan for the replaceable battery from the battery station 1102 to the battery station 1101 is created.

In one example, the information processing apparatus 101 may create a movement plan for the battery station in consideration of both the total charge amount and the charge rate. In this case, the information processing apparatus 101 may create a transfer plan of the replaceable battery from a certain battery station to a battery station having a total charge amount of 100 kWh or less and a charge rate of 30% or more lower than that of the battery station. In the example of FIG. 11, in the information processing device 101, the total charge amount of the battery station 1101 is 405 kWh, the total charge amount of the battery station 1102 is 270 kWh, and the difference between the total charge amounts is 135 kWh, which is 100 kWh or more. .. However, on the contrary, the difference in the amount of charge is 45% less and not more than 30%, so it is not necessary to create a movement plan.

Alternatively, the information processing device 101 may create a movement plan for the battery station in consideration of either the total charge amount or the charge rate. In this case, the information processing apparatus 101 may create a movement plan for the replaceable battery 241 from, for example, a battery station to a battery station having a total charge amount less than 100 kWh or a charge rate less than 30%. In the example of FIG. 11, in the information processing device 101, the total charge amount of the battery station 1101 is 405 kWh, the total charge amount of the battery station 1102 is 270 kWh, and the difference between the total charge amounts is 135 kWh, which is 100 kWh or more. .. Therefore, it is possible to create a movement plan for the replaceable battery 241 from the battery station 1101 to the battery station 1102. Further, in the information processing device 101, the charging rate of the battery station 1101 is 45%, the charging rate of the battery station 1102 is 90%, and the difference is 30% or more. Therefore, it is possible to create a movement plan for the replaceable battery 241 from the battery station 1102 to the battery station 1101.

As described above, in the present embodiment, the information processing device creates a movement plan based on the ratio (charge rate) of the total amount of actual charges to the total capacity of the replaceable batteries that the battery station can hold. As a result, the information processing device 101 can level the charge rate between the battery stations.

<Other Embodiments>
The first to fourth embodiments can be combined at will. For example, the information processing system may create a movement plan according to the third embodiment and distribute it to the user by the distribution unit according to the fourth embodiment.

In one embodiment, the battery station 102 further includes a power supply that can supply power to the replaceable battery 241 to an external device. As a result, not only the replaceable battery 241 can be used for the electric vehicle, but also the battery station 102 can be used as a standby power source in the event of a disaster, so that the introduction of the battery station 102 into a general household can be promoted.

Further, in one embodiment, the movement plan may be created based not only on the charge amount of the replaceable battery arranged in the battery station 102 but also on the charge amount of the replaceable battery 241 mounted on the electric vehicle operated by the user. For example, the user moves to the battery station 102 using the electric vehicle, replaces the replaceable battery 241 mounted on the electric vehicle with the replaceable battery 241 specified in the movement plan, and moves to the battery station 102. You may move. In such a case, the information processing device considers the charge amount of the replaceable battery 241 mounted on the electric vehicle and the electric power amount required to move between the battery stations 102 using the electric vehicle. You may create a travel plan. This makes it possible to create a movement plan in consideration of whether or not the user can travel between the battery stations 102 or to the destination using the electric vehicle.

In one embodiment, a transfer plan for the replaceable battery 241 between three or more battery stations 102 may be created. For example, a movement plan for moving the replaceable battery 1 arranged in the battery station A to the battery station B, replacing the replaceable battery 2 arranged in the battery station B, and moving the replaceable battery 2 to the battery station C. May be created. Thereby, the total charge amount can be adjusted by using the replaceable batteries arranged in three or more battery stations.

In one embodiment, the information processing apparatus 101 does not have to send the identifier of the replaceable battery to be moved to the battery station 102 and instruct the user which replaceable battery to replace. For example, the user may be instructed to move the replaceable battery from the battery station A to the battery station B and may transmit the replaceable battery identifier to the battery station A. Upon arrival of the user, the battery station A notifies the user via the user I / F of the replaceable battery to be replaced, allowing the user to execute the travel plan without unnecessary input.

In one embodiment, one battery station 102 may be capable of charging replaceable batteries with different storage capacities. Even in such a case, the total charge amount of the battery station 102 can be calculated in the same manner. Further, as described in the third embodiment, when estimating the required amount of the battery station 102, the information processing device 101 collectively estimates the required amount of the battery station 102 by collecting the interchangeable batteries having different storage capacities. May be good. Alternatively, the required amount may be calculated for each replaceable battery having the same storage capacity and compared with the charge amount for each replaceable battery having the same storage capacity.

<Summary of Embodiment>
1. 1. The information processing system (for example, 100) of the above embodiment is
An information processing system (for example, 100) including a plurality of battery stations (for example, 102) and an information processing device (for example, 101).
Each battery station (eg 102)
A charging means (eg 224) capable of charging a replaceable battery (eg 241) and
A first communication means (for example, 223) for transmitting charging information related to the charge amount of the replaceable battery (for example, 241) arranged in the battery station is provided.
The information processing device (for example, 101) is
A second communication means (for example, 213) that receives the charging information from the first communication means, and
Specific means (for example, S404) for specifying the charge amount for each battery station (for example, 102) based on the received charge information, and
A movement planning means (for example, S405) that creates a movement plan for a replaceable battery between the battery stations based on the charge amount for each specified battery station.
It is characterized by having.

Thereby, the electric power (charge amount) possessed by the battery station in which the replaceable battery is arranged can be adjusted.

2. 2. The charge amount for each battery station is the total charge amount of the replaceable batteries arranged in the battery station.

As a result, the total charge amount of the battery station can be leveled.

3. 3. The charge amount for each battery station is a ratio of the total charge amount of the exchangeable batteries arranged to the total capacity of the replaceable batteries arranged in the battery station.

This makes it possible to equalize the ratio of the amount of charge actually held to the amount of charge that the battery station can hold.

4. The information processing system (for example, 100) of the above embodiment is
The movement planning means creates a movement plan so that the replaceable battery is moved from the battery station having a large charge amount to the battery station having a small charge amount.

As a result, the charge amount of the low-charge battery station can be leveled, and the charge amount can be improved faster than waiting for the replacement battery arranged therein to be charged.

5. The information processing system (for example, 100) of the above embodiment is
The charging information is characterized in that it is information regarding the total charge amount of the replaceable batteries arranged in the battery station.

As a result, the amount of data received by the information processing apparatus from the battery station can be reduced, and the processing load of the information processing apparatus can be suppressed.

6. The information processing system of the above embodiment
The charging information includes information on the individual charge of a replaceable battery located at the battery station.
The specific means is characterized in that the charge amount of each replaceable battery is totaled to calculate the charge amount of the battery station.

This makes it possible to estimate how much the total charge amount changes when the information processing device moves the replaceable battery.

7. The information processing system (for example, 100) of the above embodiment is
The charging information includes an identifier for each replaceable battery.
The movement planning means is characterized in that it creates the movement plan that includes the identifier of at least one of the replaceable batteries.

This allows the information processing device to specify an identifier and request the movement of the replaceable battery.

8. The information processing system (for example, 100) of the above embodiment is
The movement planning means is such that when the difference between the charge amounts of the two battery stations exceeds the first threshold value, the replaceable battery is moved from the battery station having a large charge amount to the battery station having a low charge amount. It is characterized by planning a movement plan.

As a result, the information processing apparatus can relatively compare and level the charge amount of the battery station.

9. The information processing system (for example, 100) of the above embodiment is
The movement planning means compares the total charge amount of each battery station with the reference value (for example, S703), and the total charge amount is larger than the reference value and the difference between the total charge amount and the reference value is equal to or more than the second threshold value. Creating a move plan to move a replaceable battery from a battery station to a battery station where the total charge is less than the reference value and the difference between the reference value and the total charge is greater than or equal to the third threshold. (For example, S708).

This allows the information processing device to adjust the total charge of the battery station so that the battery station secures the desired total charge.

10. The information processing system (for example, 100) of the above embodiment is
The information processing device further includes a demand forecasting means for forecasting the demand of each battery station.
The movement planning means further creates the movement plan based on the predicted demand.

As a result, by predicting the total charge amount required for each battery station and increasing the total charge amount in advance, it is possible to avoid a situation in which the total charge amount is insufficient due to user use.

11. The information processing system (for example, 100) of the above embodiment is
The information processing device
It is further provided with a distribution means for distributing information on the movement plan of the replaceable battery to the user terminal of the registered user.

As a result, it is possible to directly instruct a specific user by e-mail or the like, and it is possible to promote the movement of the replaceable battery.

12. The information processing system (for example, 100) of the above embodiment is
The first communication means transmits user identification information that identifies a user who has used the battery station.
The information processing device is further provided with a user management means for managing a user's usage history based on the user identification information received by the second communication means.

As a result, it is possible to determine billing and granting of incentives based on the user's usage history.

13. The information processing system (for example, 100) of the above embodiment is
The information processing device is characterized in that the user management means stores the actual information of the user who has moved the replaceable battery according to the created movement plan.

As a result, an incentive (reward) can be given to the user to promote the movement of the replaceable battery.

14. The information processing system (for example, 100) of the above embodiment is
The battery station further comprises a power supply means capable of supplying power from the replaceable battery to an external device.

As a result, not only the replaceable battery 241 can be used for the electric vehicle, but also the battery station 102 can be used as a standby power source in the event of a disaster, so that the introduction of the battery station 102 into a general household can be promoted.

15. The information processing device (for example, 101) of the above embodiment is
An information processing device (eg 101) capable of communicating with a plurality of battery stations (eg 102).
Each battery station (eg 241)
Charging means (eg, 224) capable of charging a replaceable battery,
A first communication means (for example, 223) for transmitting charging information related to the charge amount of the replaceable battery arranged in the battery station is provided.
The information processing device
A second communication means (for example, 213) that receives the charging information from the first communication means, and
Specific means (for example, S404) for specifying the charge amount for each battery station based on the received charge information, and
A movement planning means (for example, S405) that creates a movement plan for a replaceable battery between the battery stations based on the charge amount for each specified battery station.
It is characterized by having.

This makes it possible to adjust the power held by the battery station where the replaceable battery is located.

16. The information processing method of the above embodiment is
Multiple battery stations (eg 102)
A charging means (eg 224) capable of charging a replaceable battery (eg 241) and
Information processing capable of communicating with the plurality of battery stations including a first communication means (for example, 223) for transmitting charging information related to the charge amount of the replaceable battery (for example, 241) arranged in each battery station. Performed on a device (eg 101)
A communication step (for example, S403) for receiving the charging information from the first communication means,
A specific step (for example, S404) of specifying the charge amount for each battery station based on the received charge information, and
A movement planning step (for example, S405) for creating a movement plan for a replaceable battery between the battery stations based on the charge amount for each specified battery station.
It is characterized by including.

This makes it possible to adjust the power (total charge amount) held by the battery station in which the replaceable battery is arranged.

The present invention is not limited to the above embodiments, and various modifications and modifications can be made without departing from the spirit and scope of the present invention. Therefore, in order to make the scope of the present invention public, the following claims are attached.

In the example of FIG. 1, the battery station 1021 is electrically connected to a house, the battery station 1022 is electrically connected to a vending machine, and the battery station 1023 is electrically connected to a gas station . With such a configuration, while being able to receive power from nearby equipment, it can also be used as a backup power source for transmitting power to nearby equipment in an emergency.

The control unit 221 is a processor such as a CPU, and controls each component of the battery station in order to execute the processing stored in the storage 222. This process includes, for example, a process of acquiring the charge amount of the replaceable battery 241 connected to the battery station 102, and a process of transmitting information regarding the total charge amount of the battery station 102 to the information processing device 101 .

<Second embodiment>
In the first embodiment, a movement plan for encouraging the movement of the replaceable battery is created without specifying the replaceable battery 241. However, in one example, the replaceable battery 241 is specified and the information about the replaceable battery 241 is included. You may create a travel plan.

In one example, the required amount is determined by the information processing apparatus 101 from the perspective of a backup power source, based on the storage capacity of the replaceable battery 241 that can or is located in the battery station 102, or the location of the battery station 102. Can be set. The viewpoint as a standby power source indicates the amount of power that the battery station 102 in which the replaceable battery 241 is arranged should have in an emergency. For example, when the battery station 102 is installed in a place such as a house where a large amount of electric power is required in an emergency, a standby power supply is compared with a case where the battery station 102 is installed in a place such as a vending machine which does not require a large amount of electric power in an emergency. The amount of power that should be possessed by the device may be large. Therefore, the installation location of the battery station 102 is classified. For example, if the installation location is a location that requires a relatively large amount of electric power in an emergency, the required amount is set to 70%, and if the installation location is a location that does not require a large amount of electric power in an emergency. May have a required amount of 50%.

Subsequently, in S707, the control unit 211 compares the surplus list with the shortage list. For example, when one or more of the battery stations in the surplus list and one or more of the battery stations in the shortage list are within a certain distance and the surplus amount is equal to or more than the absolute value of the shortage amount, the control unit 211 sets the surplus list. Judges that the entries match with the missing list. If it is determined that the entries match in the surplus list and the shortage list, the process proceeds to S708. In S708, control unit 211 creates a replacement battery transfer plan between the battery stations 102 of the entries matched in S707 and proceeds to S709. Here, after adding two or more entries to the movement plan in S708, those entries may be deleted. Subsequently, the process proceeds to S709 and ends S405. When one of the battery stations in the surplus list and one of the battery stations in the shortage list are farther than a certain distance, or the surplus amount is less than the absolute value of the shortage amount, the control unit 211 matches the surplus list and the shortage list. It is determined not to proceed, and the process proceeds to S709 . When the comparison is completed for all the entries in the surplus list insufficient list, and ends the processing of S405 proceeds to S709.

In FIG. 9, a moving plan 906 for moving the replaceable battery from the battery station 901 to the battery station 902 and a moving plan 907 for moving the replaceable battery 241 from the battery station 905 to the battery station 902 are displayed.

When the user selects, for example, the underwriting button of the movement plan 906, the user terminal transmits information about the user who has selected the underwriting button of the movement plan 906 to the information processing device 101. In one example, the information processing apparatus 101, the User chromatography The management unit, the user stores information indicating that the running movement plan 906, to other users may not ask the movement plan 906 ..

In one example, the information processing apparatus 101 may create a movement plan for the battery station in consideration of both the total charge amount and the charge rate. In this case, the information processing apparatus 101 may create a transfer plan of the replaceable battery from a certain battery station to a battery station having a total charge amount of 100 kWh or less and a charge rate of 30% or more lower than that of the battery station. In the example of FIG. 11, a total charge amount of Ba Tsu Terri station 1101 405KWh a total battery charge station 1102 270 kWh, the difference between the total charge amount is 135KWh, at least 100 kWh. However, on the contrary, the difference in the amount of charge is 45% less and not more than 30%, so that the information processing apparatus 101 does not have to create a movement plan.

Alternatively, the information processing device 101 may create a movement plan for the battery station in consideration of either the total charge amount or the charge rate. In this case, the information processing apparatus 101 may create a movement plan for the replaceable battery 241 from, for example, a battery station to a battery station having a total charge amount less than 100 kWh or a charge rate less than 30%. In the example of FIG. 11, a total charge amount of Ba Tsu Terri station 1101 405KWh a total battery charge station 1102 270 kWh, the difference between the total charge weight of 135KWh, at least 100 kWh. Therefore, the information processing device 101 can create a movement plan for the replaceable battery 241 from the battery station 1101 to the battery station 1102. Also, a 45% charging rate of the bus Tsu Terri station 1101, a charge of 90% of the battery station 1102, the difference is 30% or more. Therefore, the information processing device 101 can also create a movement plan for the replaceable battery 241 from the battery station 1102 to the battery station 1101.

15. The information processing device (for example, 101) of the above embodiment is
An information processing device (eg 101) capable of communicating with a plurality of battery stations (eg 102).
Each battery station (eg 102 )
Charging means (eg, 224) capable of charging a replaceable battery,
A first communication means (for example, 223) for transmitting charging information related to the charge amount of the replaceable battery arranged in the battery station is provided.
The information processing device
A second communication means (for example, 213) that receives the charging information from the first communication means, and
Specific means (for example, S404) for specifying the charge amount for each battery station based on the received charge information, and
A movement planning means (for example, S405) that creates a movement plan for a replaceable battery between the battery stations based on the charge amount for each specified battery station.
It is characterized by having.

Claims (16)

An information processing system equipped with a plurality of battery stations and an information processing device.
Each battery station
A charging means that can charge a replaceable battery,
A first communication means for transmitting charging information related to the charge amount of the replaceable battery arranged in the battery station is provided.
The information processing device
A second communication means for receiving the charging information from the first communication means, and
A specific means for specifying the charge amount for each battery station based on the received charge information, and
A movement planning means for creating a movement plan for a replaceable battery between the battery stations based on the charge amount for each specified battery station.
An information processing system characterized by being equipped with. The information processing system according to claim 1, wherein the charge amount for each battery station is the total charge amount of the replaceable batteries arranged in the battery station. The first aspect of claim 1, wherein the charge amount for each battery station is the ratio of the total charge amount of the exchangeable batteries arranged to the total capacity of the replaceable batteries arranged in the battery station. Information processing system. The information processing according to claim 1, wherein the movement planning means creates a movement plan so that the replaceable battery is moved from the battery station having a large charge amount to the battery station having a small charge amount. system. The information processing system according to claim 1, wherein the charging information is information regarding the total charge amount of the replaceable batteries arranged in the battery station. The charging information includes information on the individual charge of a replaceable battery located at the battery station.
The information processing system according to claim 1, wherein the specific means calculates the charge amount of the battery station by summing up the charge amounts of each replaceable battery. The charging information includes an identifier for each replaceable battery.
The information processing system according to claim 1, wherein the movement planning means creates the movement plan including the identifier of at least one of the replaceable batteries. The movement planning means is such that when the difference between the charge amounts of the two battery stations exceeds the first threshold value, the replaceable battery is moved from the battery station having a large charge amount to the battery station having a low charge amount. The information processing system according to claim 1, wherein a movement plan is planned. The movement planning means compares the total charge amount of each battery station with the reference value, and from the battery station where the total charge amount is larger than the reference value and the difference between the total charge amount and the reference value is equal to or more than the second threshold value. It is characterized in that a movement plan is created so that the replaceable battery is moved to a battery station where the total charge amount is less than the reference value and the difference between the reference value and the total charge amount is equal to or more than the third threshold value. The information processing system according to claim 1. The information processing device further includes a demand forecasting means for forecasting the demand of each battery station.
The information processing system according to claim 1, wherein the movement planning means further creates the movement plan based on the predicted demand. The information processing device
The information processing system according to claim 1, further comprising a distribution means for distributing information on a movement plan of the replaceable battery to a user terminal of a registered user. The first communication means transmits user identification information that identifies a user who has used the battery station.
The information processing system according to claim 1, wherein the information processing apparatus further includes a user management means for managing a user's usage history based on the user identification information received by the second communication means. .. The information processing system according to claim 12, wherein the information processing device stores the actual information of a user who has moved the replaceable battery according to the created movement plan in the user management means. The information processing system according to claim 1, wherein the battery station further includes a power supply means capable of supplying electric power from the replaceable battery to an external device. An information processing device that can communicate with multiple battery stations.
Each battery station
A charging means that can charge a replaceable battery,
A first communication means for transmitting charging information related to the charge amount of the replaceable battery arranged in the battery station is provided.
The information processing device
A second communication means for receiving the charging information from the first communication means, and
A specific means for specifying the charge amount for each battery station based on the received charge information, and
A movement planning means for creating a movement plan for a replaceable battery between the battery stations based on the charge amount for each specified battery station.
An information processing device characterized by being equipped with. Multiple battery stations
A charging means that can charge a replaceable battery,
It is executed by an information processing device capable of communicating with the plurality of battery stations, which comprises a first communication means for transmitting charging information related to the charge amount of the replaceable battery arranged in each battery station.
A communication process for receiving the charging information from the first communication means, and
A specific process for specifying the charge amount for each battery station based on the received charge information, and
A movement planning process for creating a movement plan for a replaceable battery between the battery stations based on the charge amount for each specified battery station.
An information processing method characterized by including.

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